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Mechanical Performances of Isolated Cuticles Along Tomato Fruit Growth and Ripening

The cuticle is the most external layer that protects fruits from the environment and constitutes the first shield against physical impacts. The preservation of its mechanical integrity is essential to avoid the access to epidermal cell walls and to prevent mass loss and damage that affect the commer...

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Autores principales: Benítez, José J., Guzmán-Puyol, Susana, Vilaplana, Francisco, Heredia-Guerrero, José A., Domínguez, Eva, Heredia, Antonio
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8718444/
https://www.ncbi.nlm.nih.gov/pubmed/34975973
http://dx.doi.org/10.3389/fpls.2021.787839
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author Benítez, José J.
Guzmán-Puyol, Susana
Vilaplana, Francisco
Heredia-Guerrero, José A.
Domínguez, Eva
Heredia, Antonio
author_facet Benítez, José J.
Guzmán-Puyol, Susana
Vilaplana, Francisco
Heredia-Guerrero, José A.
Domínguez, Eva
Heredia, Antonio
author_sort Benítez, José J.
collection PubMed
description The cuticle is the most external layer that protects fruits from the environment and constitutes the first shield against physical impacts. The preservation of its mechanical integrity is essential to avoid the access to epidermal cell walls and to prevent mass loss and damage that affect the commercial quality of fruits. The rheology of the cuticle is also very important to respond to the size modification along fruit growth and to regulate the diffusion of molecules from and toward the atmosphere. The mechanical performance of cuticles is regulated by the amount and assembly of its components (mainly cutin, polysaccharides, and waxes). In tomato fruit cuticles, phenolics, a minor cuticle component, have been found to have a strong influence on their mechanical behavior. To fully characterize the biomechanics of tomato fruit cuticle, transient creep, uniaxial tests, and multi strain dynamic mechanical analysis (DMA) measurements have been carried out. Two well-differentiated stages have been identified. At early stages of growth, characterized by a low phenolic content, the cuticle displays a soft elastic behavior. Upon increased phenolic accumulation during ripening, a progressive stiffening is observed. The increment of viscoelasticity in ripe fruit cuticles has also been associated with the presence of these compounds. The transition from the soft elastic to the more rigid viscoelastic regime can be explained by the cooperative association of phenolics with both the cutin and the polysaccharide fractions.
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spelling pubmed-87184442022-01-01 Mechanical Performances of Isolated Cuticles Along Tomato Fruit Growth and Ripening Benítez, José J. Guzmán-Puyol, Susana Vilaplana, Francisco Heredia-Guerrero, José A. Domínguez, Eva Heredia, Antonio Front Plant Sci Plant Science The cuticle is the most external layer that protects fruits from the environment and constitutes the first shield against physical impacts. The preservation of its mechanical integrity is essential to avoid the access to epidermal cell walls and to prevent mass loss and damage that affect the commercial quality of fruits. The rheology of the cuticle is also very important to respond to the size modification along fruit growth and to regulate the diffusion of molecules from and toward the atmosphere. The mechanical performance of cuticles is regulated by the amount and assembly of its components (mainly cutin, polysaccharides, and waxes). In tomato fruit cuticles, phenolics, a minor cuticle component, have been found to have a strong influence on their mechanical behavior. To fully characterize the biomechanics of tomato fruit cuticle, transient creep, uniaxial tests, and multi strain dynamic mechanical analysis (DMA) measurements have been carried out. Two well-differentiated stages have been identified. At early stages of growth, characterized by a low phenolic content, the cuticle displays a soft elastic behavior. Upon increased phenolic accumulation during ripening, a progressive stiffening is observed. The increment of viscoelasticity in ripe fruit cuticles has also been associated with the presence of these compounds. The transition from the soft elastic to the more rigid viscoelastic regime can be explained by the cooperative association of phenolics with both the cutin and the polysaccharide fractions. Frontiers Media S.A. 2021-12-17 /pmc/articles/PMC8718444/ /pubmed/34975973 http://dx.doi.org/10.3389/fpls.2021.787839 Text en Copyright © 2021 Benítez, Guzmán-Puyol, Vilaplana, Heredia-Guerrero, Domínguez and Heredia. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Plant Science
Benítez, José J.
Guzmán-Puyol, Susana
Vilaplana, Francisco
Heredia-Guerrero, José A.
Domínguez, Eva
Heredia, Antonio
Mechanical Performances of Isolated Cuticles Along Tomato Fruit Growth and Ripening
title Mechanical Performances of Isolated Cuticles Along Tomato Fruit Growth and Ripening
title_full Mechanical Performances of Isolated Cuticles Along Tomato Fruit Growth and Ripening
title_fullStr Mechanical Performances of Isolated Cuticles Along Tomato Fruit Growth and Ripening
title_full_unstemmed Mechanical Performances of Isolated Cuticles Along Tomato Fruit Growth and Ripening
title_short Mechanical Performances of Isolated Cuticles Along Tomato Fruit Growth and Ripening
title_sort mechanical performances of isolated cuticles along tomato fruit growth and ripening
topic Plant Science
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8718444/
https://www.ncbi.nlm.nih.gov/pubmed/34975973
http://dx.doi.org/10.3389/fpls.2021.787839
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